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fudan energy storage
Yue Gao-()
The group widely pursues transformative advances in energy storage, energy conversion, and robotics by designing organic and polymer materials. Website: ygaogroup
Self-Powered Energy Fiber: Energy Conversion in the Sheath and Storage in the Core COMMUNICATION
nent to the inner, energy-storage component ( Figure 4 a) such that under illumination, solar energy is converted into elec-trical energy and stored. The voltage of the storage component increases to 0.65 V within less than 1 s and then remains stable
Integration: An Effective Strategy to Develop Multifunctional Energy Storage Devices
Integration is widely explored as a general and effective strategy aiming at high performances. Recent progress in integrating a variety of functions into electrochemical energy storage devices is carefully described. Through integration at the level of materials: fl exible, stretchable, responsive, and self-healing devices are discussed to
Superhigh energy storage density on-chip capacitors with
Thanks to their excellent compatibility with the complementary metal–oxide-semiconductor (CMOS) process, antiferroelectric (AFE) HfO2/ZrO2-based thin films have emerged as potential candidates for high-performance on-chip energy storage capacitors of miniaturized energy-autonomous systems. However, increasin
The Functionalization of Miniature Energy‐Storage Devices
The integration of functional materials into energy-storage devices can endow them with impressive properties besides energy storage, allowing many unprecedented applications to be possible. Here, the recent progress and methodology of constructing functionalized miniature energy-storage devices that can change color, memorize shapes, and self
Energy storage via toplogical spin textures | Group X | Jiang Xiao
Through collaboration with Prof. Yaroslav Tserkovnyak, we introduce a novel idea of using the topological nature of spin textures for energy storage, i.e. a spin battery. Different
Mesostructured NiO/Ni composites for high-performance electrochemical energy storage
Electrochemical energy storage (EES) devices combining high energy density with high power density are necessary for addressing the growing energy demand and environmental crisis. Nickel oxide (NiO) is a promising electrode material for EES owing to the ultrahigh theoretical specific capacity, but the practical values are far below the
All‐Climate Iron‐Based Sodium‐Ion Full Cell for Energy Storage
Abstract. The anode materials for sodium-ion batteries (SIBs) such as soft carbon, hard carbon, or alloys suffer from low specific capacity, poor rate capability, and
Energy Storage Materials
a Department of Materials Science, Fudan University, Shanghai 200433, China b Jiangsu Key Laboratory of Electrochemical Energy-Storage Technologies, College Materials Science and Technology, Nanjing University Aeronautics Astronautics, Nanjing
Energy Storage Materials
1. Introduction. Flexible energy storage devices have been widely explored to satisfy the next-generation electronic devices that are thin, lightweight, exible. fl. and even
The Recent Advance in Fiber-Shaped Energy Storage
Fabricating high-performance energy storage systems in a 1D shape like fiber is recognized as a promising strategy to address the above issues. These fiber-shaped power systems with diameters from
Low-cost and high safe manganese-based aqueous battery for grid energy storage
The Cu-Mn battery shows an energy density of 40.8 Wh L -1, a super-long life of 10,000 cycles (without obvious capacity decay) and negligible self-discharge. And the capital cost of US$ 11.9 kWh -1 based on electrolyte is lower than any previous batteries. More importantly, the battery can still work smoothly during thermal abuse test
WANG Yonggang
E-mail: ygwang@fudan .cn Office Location: Room A2015, Chemistry Building, Department of Chemistry, Fudan University 2005 Songhu Road, Yangpu District, Shanghai 200438, China Tel: 86-21-31249123
Energy Storage Materials
The past decade has witnessed the fl booming development of ber-shaped metal-air batteries including exible lithium-air (oxygen) batteries, zinc-air fi fl batteries, aluminum-air batteries and lithium-CO2 batteries. Here the recent advances of ber-shaped metal-air fi batteries are brie y summarized, with particular emphasis on the fabrication
The Recent Advance in Fiber‐Shaped Energy Storage Devices
On the other hand, the 1D energy storage devices exhibit matching electrochemical performances for the wearable electronics. The recent advance in fiber-shaped energy storage devices is summarized with a brief chronology in evolution (Figure 1). Previously, two electrically con-ducting fibers were woven into a superca-pacitor that may witness
Stretchable Energy Storage Devices Based on Carbon Materials
Figure 1. Schematic illustration to show the merits of carbon materials for fabricating stretchable energy storage devices. SC: supercapacitor, LIB: Li-ion battery, MAB: metal–air battery, ZIB: Zn-ion battery. as wavy, kirigami-patterned, and spring-like architectures to achieve stretchability. Although several reviews have reported the late
Mesoporous Materials for Electrochemical Energy Storage and Conversion
Developing high-performance electrode materials is an urgent requirement for next-generation energy conversion and storage systems. Due to the exceptional features, mesoporous materials have shown great potential to achieve high-performance electrodes with high energy/power density, long lifetime, increased interfacial reaction activity, and
Building better aqueous Zn-organic batteries
Herein, a systematic overview focusing on recent developments, energy storage mechanisms, and design and improvement strategies for aqueous Zn-organic batteries (ZOBs) is presented. In this review, we first summarize the ion storage mechanisms of aqueous ZOBs in detail, and then introduce the main methods for
The Functionalization of Miniature Energy‐Storage Devices
Energy Storage 1. Introduction The ever-growing demand for sustainable energy has pushed forward the development of efficient energy-storage devices.[1–3] In particular, with the increasing attention in portable and wearable electronics, tremendous efforts have
Stretchable Energy Storage Devices Based on Carbon Materials
material-based stretchable energy storage devices. An overview of common carbon materials'' fundamental properties and general strategies to enable the stretchability of
Energy Storage Materials
Due to their superior energy density, and clean and e cient ffi energy storage mechanism, two promising strategies, i.e., chemical storage of hydrogen in metals or other solid
An Integrated "Energy Wire" for both Photoelectric Conversion and Energy Storage**
An Integrated "Energy Wire" for both Photoelectric Conversion and Energy Storage**. Tao Chen, Longbin Qiu, Zhibin Yang, Zhenbo Cai, Jing Ren, Houpu Li, Huijuan Lin, Xuemei Sun, and Huisheng Peng*. The use of solar energy has the potential to provide an effective solution to the energy crisis.[1–5] Generally, the solar energy is converted
Energy Storage Devices Hot Paper
Energy Storage Devices Hot Paper DOI: 10.1002/anie.201409366 Flexible and Stretchable Lithium-Ion Batteries and Supercapacitors Fudan University Shanghai 200438 (China) E-mail: penghs@fudan .cn [**] This work was supported by MOST
Aqueous rechargeable lithium batteries as an energy storage system of superfast charging
Due to the energy crisis within recent decades, renewable energies such as solar, wind and tide energies have received a lot of attention. However, these renewable energies are dependent on the time and season. Consequently, energy storage systems are needed to fully utilize these energies including their co
Energy Storage Materials
Aluminum–sulfur (Al–S) battery is a promising energy storage system owing to its safety, crustal abundance and high theoretical energy density. However, its development is
Hierarchical MXene/transition metal chalcogenide heterostructures for electrochemical energy storage
E-mail: 13110440035@fudan .cn c Environmental Process Modeling Centre, Nanyang Environment and Water Research Institute, NiS, MoS 2, FeS 2, and NiSe 2 have attracted much interest for energy storage and
Incorporating conjugated carbonyl compounds into carbon nanomaterials as electrode materials for electrochemical energy storage
Among these, conjugated carbonyl compounds (CCCs) represent one of the most attractive and promising candidates for sustainable and eco-benign energy storage devices in the coming future. However, most of the current compounds suffer from dissolution in organic electrolytes and low electronic conductivity, which result in severe
Heterocarbides Reinforced Electrochemical Energy Storage
Heterocarbides Reinforced Electrochemical Energy Storage Jing Cuan, Fan Zhang, Yang Zheng, Tengfei Zhou, Gemeng Liang, Zaiping Guo,* Wei Kong Pang, and Xuebin Yu* DOI: 10.1002/smll.201903652 giant popularity in the markets of diverse hybrid electric
Energy storage via toplogical spin textures | Group X | Jiang Xiao
The idea of storing energy using a topological spin texture can be illustrated by analogy with a twisted rod (pictured right), as proposed by Sonin in the context of a general supercurrent. The energy is loaded into the rod by applying opposite torques at the ends, and then stored as the mechanical twisting. To prevent the rod from untwisting
Mesoporous Materials for Electrochemical Energy Storage and
The electrochemical energy storage and conversion devices, such as rechargeable batteries, supercapacitors, fuel cells, and electrolyzers, have been extensively explored. It is well known that. electrode materials, e.g., anodes, cathodes, and catalysts, are the heart components of these.
The Recent Advance in Fiber‐Shaped Energy Storage Devices
shaped energy storage devices, including the synthesis of materials, the design of structures, and the optimization on properties are carefully discussed for the mostly
Temperature Effects on Electrochemical Energy-Storage
Abstract Lithium-ion batteries (LIBs) are very popular electrochemical energy-storage devices. Academy for Engineering & Technology, Fudan University, Shanghai, 200438 China Institute of Materials for Energy and Environment, School of Materials Science
An Integrated "Energy Wire" for both Photoelectric Conversion and Energy Storage
Treating the ends of the nanotube wire with a light-sensitive dye and an electrolyte, creates photoelectric-conversion and energy-storage regions in the same device (see scheme). The "wire" shows a high overall photoelectric conversion and storage efficiency of 1.5 %.
Hydrogen storage research group | Research
Professor Craig Buckley. Faculty of Science & Engineering. Deputy Director. Fuels and Energy Technology Institute. Phone: +61 8 9266 3532. Email: c.buckley@curtin . The Hydrogen Storage Research Group (HSRG) undertakes experimental research into a vast array of energy storage systems including: Hydrogen storage material
Energy Storage Materials
a Department of Materials Science, Fudan University, Shanghai 200433, China b Institute of Science and Technology for New Energy, Xi''an Technological University, an, Shaanxi 710021, China ARTICLE INFO Keywords: Single-atom catalyst
DOI: 10.1002/cphc.201300032 Integrated Devices to Realize Energy Conversion and Storage Simultaneously
The entire energy conversion and storage efficiency in this integrated device ach-ieved 5.12%. Due to the high energy density and long cycle life, lithium-ion batteries have also been used as the energy storage part in integrated devices besides supercapacitors
Wearable Battery Breakthrough at Fudan China
Moreover, the lack of solid and stable contact resulted in poor energy storage, and performance. Woven Fiber Batteries in a Laboratory (Fudan University Media Center) Finally, the team gained inspiration from vines and creepers, that secrete liquids that penetrate their pores.
An Integrated "Energy Wire" for both Photoelectric Conversion and Energy Storage**
Ti wire and stored in and CNT fiber at the energy-storage part. The voltage–discharge measurement was conducted at a current of 0.1 mA when the photoelectric-conversion and energy-storage parts were disconnected (Figure 5b). The voltage change during the
Editorial: Hierarchical Materials for Advanced Energy Storage
Hierarchical structures offer several key advantages for advancing hydrogen storage materials and electrochemical energy storage materials, including: (i) the increased
